Correlations of stomatal conductance with hydraulic and chemical factors in several deciduous tree species in a natural habitat

New Phytologist

Volumn 145, Issue 3, 2000, Pages 483-500

  Augé, Robert M ^a   Green, Craig D ^a   Stodola, Ann J W ^a   Saxton, Arnold M ^a   Olinick, Joshua B ^a   Evans, Richard M ^a  

^a UNIVERSITY OF TENNESSEE   (United States)

Author keywords

Abscisic acid; Maples; Oaks; pH of xylem sap; Stomatal conductance; Temperate trees; Water potential

Indexed keywords

EID: 0034065655     PISSN: 0028646X     EISSN: None     Source Type: Journal    
DOI: 10.1046/j.1469-8137.2000.00604.x     Document Type: Article

References (51)

1. Aphalo PJ, Jarvis PG. 1991. Do stomata respond to relative humidity? Plant, Cell and Environment 14: 127-132.
2. Assman SM, Grantz DA. 1990. Stomatal response to humidity in sugarcane and soybean : effect of vapor pressure difference on kinetics of the blue light response. Plant, Cell and Environment 13: 162-169.
3. Augé RM, Duan X. 1991. Mycorrhizal symbiosis and nonhydraulic root signals of drying soil. Plant Physiology 97: 821-824.
4. Ball J, Woodrow IE, Berry JA. 1987. A model predicting stomatal conductance and its contribution to the control of photosynthesis under different environmental conditions. In: Biggins J, ed. Progress in photosynthesis research, Vol. 4. Proceedings of the VIIth International Congress on Photosynthesis, Providence, Rhode Island, August 10-15, 1986. Dordrecht, The Netherlands: Martinus Nijhoff Publishers, 221-224.
5. Campbell GS. 1977. An introduction to environmental biophysics. New York, USA: Springer-Verlag, 20-22.
6. Correia MJ, Pereira JS. 1995. The control of leaf conductance of white lupin by xylem ABA concentration decreases with the severity of water deficits. Journal of Experimental Botany 46: 101-110.
7. Croker JL, Witte WT, Augé RM. 1998. Stomatal sensitivity to nonhydraulic root-to-shoot signals of partial soil drying in six temperate, deciduous forest trees. Journal of Experimental Botany 49: 761-774.
8. Davies WJ, Tardieu F, Trejo CL. 1994. How do chemical signals work in plants that grow in drying soil? Plant Physiology 104: 309-314.
9. Duan X, Neuman DS, Reiber JM, Green CD, Saxton AM, Augé RM. 1996. Mycorrhizal influence on hydraulic and hormonal factors implicated in the control of stomatal conductance during drought. Journal of Experimental Botany 47: 1541-1550.
10. Ebel RC, Duan X, Still DW, Augé RM. 1997. Xylem sap abscisic acid concentration and stomatal conductance of inycorrhizal Vigna unguiculata (L.) Walp. in drying soil. New Phytologist 135: 755-761.
11. Fort C, Fauveau ML, Muller F, Label P, Granier A, Dreyer E. 1997. Stomatal conductance, growth and root signaling in young oak seedlings subjected to partial soil drying. Tree Physiology 17: 281-289.
12. Fußeder A, Wartinger A, Hartung W, Schulze ED, Heilmeier H. 1992. Cytokinins in the xylem sap of desert-grown almond (Prunus dulcis) trees: daily courses and their possible interactions with abscisic acid and leaf conductance. New Phytologist 122: 45-52.
13. Gowing DJG, Davies WJ, Jones HG. 1990. A positive root-sourced signal as an indicator of soil drying in apple, Malus × domestica Borkh. Journal of Experimental Botany 41: 1535-1540.
14. Gowing DJG, Jones HG, Davies WJ. 1993. Xylem-transported abscisic acid - the relative importance of its mass and its concentration in the control of stomatal aperture. Plant, Cell and Environment 16: 453-459.
15. Hartung W, Wilkinson S, Davies WJ. 1998. Factors that regulate abscisic acid concentrations at the primary site of action at the guard cell. Journal of Experimental Botany 49: 361-367.
16. Jackson GE, Irvine J, Grace J, Khalil AMM. 1995. Abscisic acid concentrations and fluxes in droughted conifer saplings. Plant, Cell and Environment 18: 13-22.
17. Jia W, Zhang J. 1997, Comparison of exportation and metabolism of xylem-delivered ABA in maize leaves at different water status and xylem sap pH. Plant Growth Regulation 21: 43-49.
18. Jia W, Zhang J, Zhang DP. 1996. Metabolism of xylem-delivered ABA in relation to ABA flux and concentration in leaves of maize on Commelia communis. Journal of Experimental Botany 47: 1085-1091.
19. Khalil AAM, Grace J. 1993. Does xylem sap ABA control the stomatal behavior of water-stressed sycamore (Acer pseudo-plantanus L.) seedlings? Journal of Experimental Botany 44: 1127-1134.
20. Kramer PJ, Boyer JS. 1995. Water relations of plants and soils. New York, USA: Academic Press.
21. Lange OL, Lösch R, Schulze E-D, Kappan L. 1971. Responses of stomata to changes in humidity. Planta 100: 76-86.
22. Liang J, Zhang J, Wong M. 1997. How do roots control xylem sap ABA concentration in response to soil drying? Plant Cell Physiology 38: 10-16.
23. Liang J, Zhang J, Wong M. 1996. Stomatal conductance in relation to xylem sap ABA concentrations in two tropical trees, Acacia confusa and Litsea glutinosa. Plant, Cell and Environment 19: 93-100.
24. Loewenstein NJ, Pallardy SG. 1998a. Drought tolerance, xylem sap abscisic acid and stomatal conductance during soil drying: a comparison of young plants of four temperate deciduous angiosperms. Tree Physiology 18: 421-430.
25. Loewenstein NJ, Pallardy SG. 1998b. Drought tolerance, xylem sap abscisic acid and stomatal conductance during soil drying: a comparison of canopy trees of three temperate deciduous angiosperms. Tree Physiology 18: 431-439.
26. Loveys BR. 1984. Diurnal changes in water relations and abscisic acid in field-grown Fitis vinifera cultivars. III. The influence of xylem-derived abscisic acid on leaf gas exchange. New Phytologist 98: 563-573.
27. Meyer BS, Anderson DB. 1952. Plant physiology, 2nd edn. New York, USA: D. Van Nostrand & Co.
28. Nobel PS. 1991. Physicochemical and environmental plant physiology. New York, USA: Academic Press, 363-366, 393-398.
29. Oren R, Phillips N, Ewers BE, Pataki DE, Megonigal JP. 1999. Sap-flux-scaled transpiration responses to light, vapor pressure deficit, and leaf area reduction in a flooded Taxodium distichum forest. Tree Physiology 19: 337-347.
30. Pereira JS, Kozlowski TT. 1977. Influence of light intensity, temperature and leaf area on stomatal aperture and water potential of woody plants. Canadian Journal of Forest Research 7: 145-153.
31. Saliendra NZ, Sperry JS, Comstock JP. 1995. Influence of leaf water status on stomatal response to humidity, hydraulic conductance, and soil drought in Betula occidentalis. Planta 196: 357-366.
32. Schulze E-D, Turner NC, Gollan T, Shackel KA. 1987. Stomatal responses to air humidity and to soil drought. In: Zeiger E, Farquhar GD, Cowan IR, eds. Stomatal function. Stanford, CA, USA: Stanford University Press, 311-321.
33. Tardieu F, Davies WJ. 1993. Integration of hydraulic and chemical signalling in the control of stomatal conductance and water status of droughted plants. Plant, Cell and Environment 16: 341-349.
34. Tardieu F, Katerji N, Benthenod O, Zhang J, Davies WJ. 1991. Maize stomatal conductance in the field: its relationship with soil and plant water potentials, mechanical constraints and ABA concentration in the xylem sap. Plant, Cell and Environment 14: 121-126.
35. Tardieu F, LaFarge T, Simonneau Th. 1996. Stomatal control by fed or endogenous ABA in sunflower: interpretation of correlations between leaf water potential and stomatal conductance in anisohydric species. Plant, Cell and Environment 19: 75-84.
36. Tardieu F, Simonneau Th. 1998. Variability among species of stomatal control under fluctuating soil water status and evaporative demand: modelling isohydric and anisohydric behaviors. Journal of Experimental Botany 49: 419-432.
37. Tardieu F, Zhang J, Gowing DJG. 1993. Stomatal control by both [ABA] in the xylem sap and leaf water status: a test of a model for droughted or ABA-fed field-grown maize. Plant, Cell and Environment 16: 413-420.
38. Tardieu F, Zhang J, Katerji N, Bethenod O, Palmer S, Davies WJ. 1992. Xylem ABA controls the stomatal conductance of field-grown maize subjected to soil compaction or soil drying. Plant, Cell and Environment 15: 143-197.
39. i and on stem hydraulic conductance and foliar ABA concentrations. Journal of Experimental Botany 50: 243-251.
40. Thompson DS, Wilkinson S, Bacon MA, Davies WJ. 1997. Multiple signals and mechanisms that regulate leaf growth and stomatal behavior during water deficit. Physiologia Plantarum 100: 303-313.
41. Triboulot MB, Fauveau ML, Bréda N, Label P, Dreyer E. 1996. Stomatal conductance and xylem-sap abscisic acid (ABA) in adult oak trees during a gradually imposed drought. Annales ties Sciences Forestières 53: 207-220.
42. Turner NC, Schulze E-D, Gollan T. 1984. The responses of stomata to vapour pressure deficits and soil water content. I. Species comparison at high soil water contents. Oecologia 63: 338-342.
43. Walker-Simmons M. 1987. Embryonic ABA levels and sensitivity in developing wheat embryos of sprouting resistant and susceptible cultivars. Plant Physiology 84: 61-66.
44. Walker-Simmons MK, Abrams SR. 1991. Use of ABA immunoassays. In: Davies WJ, Jones HG, eds. Abscisic acid: physiology and biochemistry. Oxford, UK: BIOS Scientific Publishers, 53-61.
45. Wartinger A, Heilmeier H, Hartung W, Schulze D. 1990. Daily and seasonal courses of leaf conductance and abscisic acid in the xylem sap of almond trees [Prunus dulcis (Miller) DA Webb] under desert conditions. New Phytologist 116: 581-587.
46. Wilkinson S, Corlett JE, Oger L, Davies WJ. 1998. Effects of xylem pH on transpiration from wild-type and flacca mutant tomato leaves: a vital role for abscisic acid in preventing excessive water loss even from well-watered plants. Plant Physiology 117: 703-709.
47. Wilkinson S, Davies WJ. 1997. Xylem sap pH increase: a drought signal received at the apoplastic face of the guard cell that involves the suppression of saturable abscisic acid uptake by the epidermal symplast. Plant Physiology 113: 559-573.
48. Wilson CC. 1948. The effect of some environmental factors on the movements of guard cells. Plant Physiology 23: 5-37.
49. Wuenscher JE, Kozlowski TT. 1971. The response of transpiration resistance to leaf temperature as a desiccation resistance mechanism in tree seedlings. Physiologia Plantarum 24: 254-259.
50. Zhang J, Jia W, Zhang D. 1997. Effect of leaf water status and xylem pH on metabolism of xylem-transported abscisic acid. Plant Growth Regulation 21: 51-58.
51. Zhang J, Schurr U, Davies WJ. 1987. Control of stomatal behavior by abscisic acid which apparently originates in the roots. Journal of Experimental Botany 38: 1174-1181.